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Dr. Becky, It's great to see you endorsing new proposals for The People's Gravity, a.k.a. The Theory of Gravity, Modified Gravity, or the theory-not- having-to-do-with-a-single-person gravity (a.k.a. MOND), and actively preparing a new thesis, in support and defense of, Rationality in Rational Fields (of Science). The Inverse Square Regime is in dire need of a change, to observe the little things, usually muddled together by bulk principles. While we overlook your serious lack of anti-war propaganda, we'll consider your acts-and-deeds on The People's side of rational discussion, anti-corruption, pro-anti-dark-matter, pro-socialist-feudal Britain, and encouraging the questioning of the aristocratic Mathematical black humor of the Newtonian age of occult magnetic principles. While the Scientific Renaissance burgeoned with the handsome(!) dialectics of Newton, and ANY of his male counterparts, the only other thing he was interested in, besides Kepler, Galileo, Leibnitz, Voltaire, and some other fellow, is his dabbling in Alchemy! Magnetism was assumed to be a proper way to look at the magnetic orbits of the planets. (see satirical 18th century zodiac columns) The People's Gravity (gravity-theory) Theoriticians would like to interject a few suggestions about where to head with our future research. Suggestion the first: A general revamping of any functional theory (i.e. a force-law theory) with an equivalent theory based on particle counting. This should give a very rudamentary form of the equations based on flux-density, and cross-section. Suggestion the second: Consider non-linear effects of particle counting to help account for the utter failure of force-law. The simplest of such examples is how a linear force would absorb / emit as 1-to-1, while a non-linear force would absorb / emit as 1-to-many. Finally, supposing the law of the free market, (pardoning my anti-war activist friends), don't ever suppose things don't exist if there's a way to profit, from, those, things. Black holes exist because LIGO created them, with the help, and passive collusion of, those rascal predecessors: Galileo, Newton, Einstein, and Hawking. Newton's recklessness may as well have caused the creation of the nuclear bomb, when every other person fails to ACT - in order to stop a varitable genocide! We Need Your Help! The People Win Out! The Trump Era Must Fail! Warm Regards, The People
As an ex- astrophysicist, I love your videos, I feel like I'm getting a little taste of my old astro Journal Club (where we all sat around and talked about papers at lunch).
What's different now is we have to work the pause button a lot to read the abstracts, while journal clubs don't have pause buttons and don't need them.
Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic. "Always two there are" -- Yoda. Singularities are actually dual:- Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry. Curvature or gravitation is dual. Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality). Positive is dual to negative -- electric charge or numbers. Potential energy is dual to kinetic energy -- gravitational energy is dual. Energy is dual to mass -- Einstein.
singularity indirectly means offline/out of unverse...which black holes doen fit that definition... but may be valid until they reaches singularity... ie the part f matter outside blackhole thats under process of bein part f singularity may b te thi thats what we see on blak holes.. but after matter reaches singularity i think mathemathicall as they are offline... they are no part of black hole anymore... we can thing black holes as a atr to singularity of teory is true... i mean logcally offline means offline.. they do not obey rules.. tht meas they cant be part f symphony of te big chaos called universe anymore :D
Absolutely loved the issue with showing us 10 to -13 at the blooper end of the video. As an Engineer who occasionally has been known to get the decimal place in the wrong slot.. I grew up in era of slide rules afterall... it was just fun to see Dr Becky figuring it out... Thanks for the laugh. I think all the more of you for showing us that.
One of the tricky things with discussing neutron stars and black holes is that there are two different masses that get brought up: the mass of the progenitor star and the mass of the remnant itself. Due to the supernova, the remnant's mass will be less than that of the star. So a remnant of 5 solar masses may be a black hole, but a star with 5 solar masses will become a neutron star.
Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic. "Always two there are" -- Yoda. Singularities are actually dual:- Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry. Curvature or gravitation is dual. Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality). Positive is dual to negative -- electric charge or numbers. Potential energy is dual to kinetic energy -- gravitational energy is dual. Energy is dual to mass -- Einstein.
I was thinking this moment (on second listen-through of Her Beckyness), about the levels of mass loss in high-mass stars. Very much your point too. Not really Her Beckyness's territory, but very much related. Which sounds better : "Her Beckyness", or "Quine Smethy"?
just so real when even a seasoned professor of astrophysics has to take a moment to confirm how many zeros after the decimal and whether it includes the zero in the ones place xD
Love the "Mind the Gap" London Tube reference at the start of the video. Brought back nice memories when I visited London and rode the tube back in January 2016. Facinating video once again Dr. Becky. I always look forward to your next video release.
The pop up showing Dr. Becky cares about the difference between an acronym and an initialism was the second most exciting thing I've read this week, and made me very happy.
Had to rewatch to see the popup you mentioned, but totally agreed! We're a nation obsessed with acronyms to the point that we name everything with the end goal of a nice acronym in mind 😂 US here 🇺🇸
That is an incredibly tight, frustrating difference between the required accuracy and the variation. Unusual for astronomy numbers to be the same order of magnitude like that!
Just listen to Sabine Hossenfelder & you'll get to hear the exact opposite, time & time again. Except it makes sense for larger astronomical event detection devices, as space is large. But it's a massive expenditure to study the very small - Super CERNS.
@@justincronkright5025 False equivalence. It's not a particle accelerator. We know that the resolution and sensitivity increase with size that there are things to be seen there. It's far less speculative.
@@Sonny_McMacsson Well duh, something isn't something completely different. The point is that there is a universe of stuff out there that can be explored and information garnered about the universe. Whereas the capacity to do testing of particle physics on this specific planet of Earth is either 1) finite or at least 2) made more expensive & perhaps even more fallible by the conditions they are done in.
@@justincronkright5025Sabin may be right when it comes to particle accelerators, but it's a different story when it comes to astronomy, and even space in general, because we definitely get a return on our investment because all space missions have very specific goals and they usually not only achieve them, but exceed them. Also, there's no other way to get data we need other than those missions. JWST is a great example. It cost a lot of money, but I don't think any scientist would claim it was a waste of money. Mars rovers are another example because they're the only way we can explore and eventually visit other planets. Space missions don't shoot in the dark hoping to find something interesting, unlike particle accelerators
It's one I use ... monthly if not weekly. But never weakly. It is an important half-way house between "you're wrong" and "you're not right", both of which include "we're both honest, but disagree". In other words, politically unacceptable.
It was great working with you as always Dr. Becky! Another fantastic analysis. To those of you interested staying fully informed and getting the latest updates for Space/Science research, check out the link in the description and let us know if you have any questions.
Her Beckyness is a very powerful advert for your service. I'm not in a paying position at this time, but she has moved you into the "I would if I could" category. Do you need sci-tech analysts - specifically geologists?
Almost in passing, you gave the most accessibly communicated explanation for star death and neutron star formation, ever. Most people will be able to understand it, even if they don't know why. Truly demonstrating what an excellent science communicator you are. Bravo!
It was absolutely terrible and communicated only misinformation. There's no "glowing helium core" after a supernova, instead helium is blown away by the explosion
The comparison chart at 5:30 is just....*chef's kiss* I love the video, but that just tells you everything you need to know about both remnant stars, but also our inimitable physics explainer.
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer. Clockwise is dual to anti-clockwise. Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic. "Always two there are" -- Yoda. Singularities are actually dual:- Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry. Curvature or gravitation is dual. Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality). Positive is dual to negative -- electric charge or numbers, curvature. Potential energy is dual to kinetic energy -- gravitational energy is dual. Energy is dual to mass -- Einstein. Symmetry is dual to conservation -- the duality of Noether's theorem. Duality is a symmetry and it is being conserved according to Noether's theorem.
I loved this video, but I have a clarification to note: I just wanna point out that when Becky says that a massive star goes supernova once it runs out of hydrogen to fuse, that's not quite correct. Massive stars that turn into black holes or neutron stars actually keep fusing heavier and heavier elements until they build up enough iron - the first element they can't fuse - for their core to implode, causing a supernova.
It's not they can't fuse iron, it's just that the fusion of iron absorbs energy rather than generating energy and so there is no outward pressure from the reaction balancing in the inward gravitational pressure. This is what induces a collapse which starts the supernova process.
I'm an electrical engineer working on developing a commercial optical atomic clock (5e-14@1sec), and it's cool to see an example in astronomy that requires really good clocks.
A fascinating find, and I think it's exciting no matter which one it turns out to be, as long as it narrows the gap. Though a tiny black hole at that size would be a much bigger bite out of the difference. The transition to the ad has a fatal flaw... I can tell that it's a real science story because Dr. Becky and/or Scott Manley cover it in their news segments. And then Dr. B goes and says "giant radio telescope" and makes me sad that Arecibo is gone.
I wondered the same. Quark star? Strange star? Some physicists seem to think that quark and/or strange matter may even exist at the cores of some normal mass range neutron stars.
As much as I understand, the object crosses the Schwartzshild radius and becomes a black hole, before its content becomes a quark star. So who knows if inside a black hole, censored by an event horizon, resides a quark star...
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer. Clockwise is dual to anti-clockwise. Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic. "Always two there are" -- Yoda. Singularities are actually dual:- Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry. Curvature or gravitation is dual. Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality). Positive is dual to negative -- electric charge or numbers, curvature. Potential energy is dual to kinetic energy -- gravitational energy is dual. Energy is dual to mass -- Einstein. Symmetry is dual to conservation -- the duality of Noether's theorem. Duality is a symmetry and it is being conserved according to Noether's theorem.
@@davidtatro7457AIUI, they're related. Whether they're "stable" ... open question. Whether they can be (remotely, i.e. by us) distinguished one from the other - between hard and very-hard. If you want funding, you need to talk about *testable* differences. There you get funded PhD projects ; elsewhere, you're searching for funding.
This is awesome! so glad someone finally mentioned the low mass gap of BH’s lol. this is currently my research and honestly, it gets overshadowed by the other mass gaps
heavy neutron star more interesting because it can give clues about the balance between degeneracy pressure and conversion of up and down quarks to strange or other quarks.
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer. Clockwise is dual to anti-clockwise. Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic. "Always two there are" -- Yoda. Singularities are actually dual:- Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry. Curvature or gravitation is dual. Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality). Positive is dual to negative -- electric charge or numbers, curvature. Potential energy is dual to kinetic energy -- gravitational energy is dual. Energy is dual to mass -- Einstein. Symmetry is dual to conservation -- the duality of Noether's theorem. Duality is a symmetry and it is being conserved according to Noether's theorem.
That we can even detect objects this small at such a vast distance... Consider the radii involved are in the 10-20ish KM range against a distance of 40K Light years (more than 10^16 KM). So that "little bit of extra resolution" is going to be a challenge. Wonderful presentation.
It should be stated that when Dr. Becky says the biggest a neutron star and smallest black hole can only be 2+ times the mass of the sun. She means how big the dead stellar core can be before it collapses into a neutron star/black hole. Not the mass of the original star that core collapsed into the neutron star/black hole.
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer. Clockwise is dual to anti-clockwise. Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic. "Always two there are" -- Yoda. Singularities are actually dual:- Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry. Curvature or gravitation is dual. Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality). Positive is dual to negative -- electric charge or numbers, curvature. Potential energy is dual to kinetic energy -- gravitational energy is dual. Energy is dual to mass -- Einstein. Symmetry is dual to conservation -- the duality of Noether's theorem. Duality is a symmetry and it is being conserved according to Noether's theorem.
I am appreciative of those who included a researcher's portrait on the report paper with their name. It's a good idea to become familiar with their names and faces. It ought to be present everywhere!
Too little attention is paid to gravity wave interaction with neutron stars. Given NO gravitational wave assistance, the minimal mass of black holes are ~3 solar masses. Some should keep in mind that lower mass neutron stars that experience gravitational waves from whatever cause effectively "push" a large neutron star to fall into black hole status. Hope to read more about transindient neutron stars.
Why would the amount of spinningness be different if it is a black hole vs if it is a neutron star (assuming it is the result of a merger)? Is it because if it were a merger of two neutron stars combining to make a neutron star, that some stuff would have been ejected outwards, carrying away some angular momentum? Or, is it some other reason?
My biggest issue is ... we don't have a minimum mass for a BH. We have a minimum mass for forming a BH from a collapsed star (which is also a maximal mass for a NS). But that *only* covers forming X by collapse of a star-sixe object. Hypothesis : a NS (isolated, little visible radiation signature) and a cold, old Brown Dwarf impact at low "beta" (impact factor) creating a BH-density small region which collapses ... and is separated in very-short time from either source of loosely-bound mass. Result : a BH of arbitrarily low mass (and arbitrarily high angular momentum) without any obscure physics. "Blue straggler" stars in globular clusters suggest that such improbable collisions DO happen. (No, I'm not disputing the physics of stellar collapse - just arguing that they're not the *only* formation mechanism.)
This is a great demonstration of the "better approximation to reality" model of what science is. If your new data (on whatever) provides a better approximation to our previous measurements, your model is (probably) better. It worked for Kepler (Copernicus didn't push his mathematical ideas ; Kepler made them unavoidable.). Then Faraday. And Einstein. And ... the next ...
I really love your videos... They are so well done! I get giddy when i see you've posted your next videos! I love space and physics, so i totally nerd out when you enlighten us! Thanks again! See ya next time!
So much fun! I wasn't interested in the title so much as clicking on Dr Becky to waste some time before bed. Now I know a bit about it in an enjoyable way.
A couple of questions if you don't mind: (1) If a single neutron star spinning fast enough to avoid collapse eventually spun down to the point it did collapse, would the gravitational signature be visible? (If so, what would it look like?) (2) If a star was formed purely from quarks (if that was possible, somewhere between a neutron star and a black hole), would its escape velocity exceed c? Interesting stuff as always!
If the spinning slows down, then the energy density also goes down, therefore it wouldn't collapse. It's probably not possible to have an all-quark star because the high degeneracy pressures alone would have enough energy to cause a collapse into a black hole.
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer. Clockwise is dual to anti-clockwise. Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic. "Always two there are" -- Yoda. Singularities are actually dual:- Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry. Curvature or gravitation is dual. Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality). Positive is dual to negative -- electric charge or numbers, curvature. Potential energy is dual to kinetic energy -- gravitational energy is dual. Energy is dual to mass -- Einstein. Symmetry is dual to conservation -- the duality of Noether's theorem. Duality is a symmetry and it is being conserved according to Noether's theorem.
Question: a Type 1A supernova occurs when matter accretes to a white dwarf until it goes bang. I imagine, there are many examples where matter accretes to a neutron star. When the neutron star gains enough mass (as discussed in your excellent video) and it transitions to a black hole, does it just "switch off" and go dark????
Not quite but essentially yes. Lacking a source of fusion energy the collapse would be quite 'quiet' and hard to detect.The same is true for stars collapsing directly into black holes.
I would assume that a neutron star has trouble "feeding" just like a black hole has, because the gravitational pull gets so violent close to it that stuff gets accelerated to close the speed of light, which causes an enormous amount of friction, to the point that the accretion disc even gives off x-ray light, which causes outward pressure against the gravity. So if the neutron star suddenly collapses into a black hole, the accretion disc would probably light up pretty spectacularly.
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer. Clockwise is dual to anti-clockwise. Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic. "Always two there are" -- Yoda. Singularities are actually dual:- Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry. Curvature or gravitation is dual. Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality). Positive is dual to negative -- electric charge or numbers, curvature. Potential energy is dual to kinetic energy -- gravitational energy is dual. Energy is dual to mass -- Einstein. Symmetry is dual to conservation -- the duality of Noether's theorem. Duality is a symmetry and it is being conserved according to Noether's theorem.
rather than looking for the bang of the transition, we can look for the after-effects of it. For example, we can look for a luminous companion of the black hole created due to the accretion-induced collapse; a few papers have already done this.
The thing that really strikes me about all of this is the rather small mass range for neutron stars and therefore quasars. It had never occured to me before, but now thinking about it... it means that when we observe neutron stars, we are witnessing the remnants of a system rather similar, in size at least, to our own.
Sorry - I've never heard of a model for powering a QUASAR relying on a Neutron Star. All I know of REQUIRE a big (million*sun-mass, upwards) black hole.
What's happening around a black hole that we can't explain is likely also the key to making something invisible. It's interesting how stable a black hole is
Thank you very much for explaining and thank you to all the scientist who are unraveling the mysteries of the universe and physics. It is of utmost importance.
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer. Clockwise is dual to anti-clockwise. Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic. "Always two there are" -- Yoda. Singularities are actually dual:- Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry. Curvature or gravitation is dual. Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality). Positive is dual to negative -- electric charge or numbers, curvature. Potential energy is dual to kinetic energy -- gravitational energy is dual. Energy is dual to mass -- Einstein. Symmetry is dual to conservation -- the duality of Noether's theorem. Duality is a symmetry and it is being conserved according to Noether's theorem.
It would be interesting if there was some overlap, a neutron star slightly bigger than a blackhole, requiring a kick by an external event to start the collapse
In my ignorance, I was thinking that being in globular cluster would mean there would be "frequent" perturbations of the orbit as other stars pass "close by" (say 1,000 AU)... But IIUC, the stars in a cluster will be moving between 5 & 30 AU per year, so not exactly swooping by, and moving well under 0.1% of mean separation (1ly ≈ 63k AUh) per year. And with J0514-4002E being only 8M km (0.05 AU) from its partner, I expect the effect of stars even 100 AU away would be insignificant.
The mass gap is really intriguing. I wonder if we make a fundamental mistake when calculating the mass of either neutron stars or black holes, allowing for the gap to exist. Since neutron stars do collapse into black holes by accumulating mass, there should not exist a gap.
Hearing both the fact that all stars lose mass during their lifetime, and the fact that we measure the weight of objects in the universe in terms of "solar masses", it makes me suddenly think (even though I am used to dealing with this weight unit): shouldn't the "solar mass" unit come along with a reference in time? Indeed, 10 solar masses now is not the same amount in kg as 10 solar masses in 10 years. So we have a unit system which is evolving every second! While a kilogram is a kilogram is a kilogram and its template is well known and does not vary over time. Our sun loses about 4.2 billion kg per second, emitting enery as light, solar bursts, etc. This is a huge amount of matter lost every second, even if it represents a very small amount compared to the overall sun, and to other stellar objects in the universe that may be 10 times more massive (betelgeuse 16.5 times). Still, to be perfectly accurate, shouldn't the unit be "anchored" to a reference in the timeline of the universe? When we say something weighs 6.32 solar masses, during how many years will this statement remain true until we must correct it to 6.33? I know the math could be done easily, but it's just to point out the problem. Althoug is not that trivial: the measured object may also change in mass in the meantime, so depending on if it is at a rate lower or higher than that of our sun, adjusting the statement to make it true again may be done by increasing or decreasing the number. It is strange to have such moving references, and nodoby seems to care for the inaccuracy even if very very small. Perhaps it is assumed that the mankind period in the universe will be so short that it can be seen as a single fixed point in the universe timeline, so that when we speak in terms of solar masses, the error due to time passing is sufficiently neglectable.
Loved the book and fascinated by black holes. Can you explain why when a neutron star gets big enough to collapse into a black hole it has to firm a singularity? Isn't it possible that there is another phase of mass with a degeneracy pressure to stop the collapse to the singularity.
Early on in the video, I almost thought you were going to say "how we can turn it (the neutron star) into a Black Hole"! Certainly would reinforce your fascination with Black Holes. Counting on your fingers, especially with the tasteful nail varnish as focal points was really helpful - negative power numbers always lose me. Another really great video.
As soon as Dr Becky mentioned neutron stars retaining the spin of their pre-nova selves, I thought of the figure skater analogy. But I also wonder now just how much spin is going on inside a black hole?!
This 'Black hole orrery visualization' is very satisfying to watch. I could watch the 10-hour version 😄
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@13.43 the image displays the Virgo detector in Pisa (Italy), not what the caption reads (LIGO Livingstone, LA, USA). Besides this tiny detail, a great video. Thanks.
I guess the team thought about this, But i'm curious, but could it be a very dim white dwarf too? the more massive WD know is like 1.3 Msun. Althought their normal range is more lik 0.8. WD are ussually bigger in size than a neutron start, but their light is dim, VS the radio Beam coming out of a pulsar. that would be massive enough to have a effect on the pulsar. I love when the videos are right in your field of expertise, Hurray for black holes!
Hi @DrBecky, this may be a silly question, but I was wondering if it makes sense to ask about why the up and down quarks that makeup neutrons do not resist the force of gravity after the point at which the neutrons break down under high gravity? Or is this part of the mystery and importance of why we need a theory of quantum gravity - because Quarks follow the laws of QM and not GR? You see my thought process extrapolating from stars collapsing down into neutron stars (big ball of neutrons) and wondering about whether a black hole might be a ball of fundamental particles in a smaller volume. Another thought is about how the fundamental particles like quarks etc have no measurable size and are treated as 'point-like' in mathematics - so to a regular guy like me it conceptually doesn't seem strange for a large amount of fundamental matter under high gravity to be occupying what looks like the same place - a point in space with so much concentrated energy that gravity reduces space to 0 dimensions. I know that I have got here through a lot of misunderstanding! I know that is probably nonsense, but I am just a science and space fan trying to understand the universe. Love your book and channel! BONUS QUESTION: What can someone who hasn't done maths since secondary school start learning to get a better understanding of physics in cosmology? Any recommendations?
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer. Clockwise is dual to anti-clockwise. Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic. "Always two there are" -- Yoda. Singularities are actually dual:- Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry. Curvature or gravitation is dual. Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality). Positive is dual to negative -- electric charge or numbers, curvature. Potential energy is dual to kinetic energy -- gravitational energy is dual. Energy is dual to mass -- Einstein. Symmetry is dual to conservation -- the duality of Noether's theorem. Duality is a symmetry and it is being conserved according to Noether's theorem. The big bang is an infinite negative curvature singularity -- non null homotopic (duality). Dark energy is repulsive gravity, negative gravity, negative pressure or hyperbolic space, negative curvature (inflation)! The definition of Gaussian negative curvature is defined using two dual points or singularities:- en.wikipedia.org/wiki/Gaussian_curvature The big bang is an infinite white hole (an explosion, expansion, divergent).
hey becky i found your channel via a youtube short and have been binge your content. i been learning so much. so thank you. i stuck in bed alot so its been great to work my brain
Awesome, Dr. Becky's favourite subject, awesome information, as always 😀 So "Q": is there no light due to it being a black hole with to no accretion disc, or can a neutron star cause a gravitational fluctuation with causing an accretion disc? Isn't this getting into boundary levels between the two?
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer. Clockwise is dual to anti-clockwise. Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic. "Always two there are" -- Yoda. Singularities are actually dual:- Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry. Curvature or gravitation is dual. Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality). Positive is dual to negative -- electric charge or numbers, curvature. Potential energy is dual to kinetic energy -- gravitational energy is dual. Energy is dual to mass -- Einstein. Symmetry is dual to conservation -- the duality of Noether's theorem. Duality is a symmetry and it is being conserved according to Noether's theorem.
Seeing a super nova explosion is noticeable. Seeing something disappear is much harder. There has only been a few occasions where we notice that something is no longer visable.
I think the most exciting possibility is that there could be a transition stage that's neither a black hole or a neutron star. Something like a quark matter object or a boson star.
It would be super cool to have a neutron star right at the limit of becoming a black hole because of its spin, eventually slow down just enough to no longer be able to prevent its collapse and the pulsar blinks out. And would it just go out (stop pulsing) or would there be some kind of explosive event?
I think the lightest black hole would be more exciting. It would close that mass gap a lot more, giving us more certainty about the limits of neutron degeneracy pressure. I like it when we learn hard facts, and if this object is a black hole rather than a neutron star, that's harder facts.
Um, the physical reality of the object is less important than whether it identifies as a Neutron Star or a Black Hole. I just don't think we should be assuming the classification of stellar remnants.
I really love these videos DB. We're getting closer and closer to understanding Black hole creation. The latest reseach is cool. But I still don't buy into the conventional theory of Black hole Physics. I believe that Black holes are a tare in the fabric of space and not super dense objects. Laugh and then read on! To picture it in a simplified model it's like this. Imagine space as a piece of cloth streched out. On this cloth representing stars are marbles varying in size and mass. When a marble becomes dense enough and spins fast enough ( Neutron Star ) it tears through the fabric. Space can no longer support it and it is anylated. The remaining cap is a Black hole. The law of conservation makes space keep a memory of this event. A Black hole. It is space itself ( the fabric ) which creates the intense gravity around it. I believe that a phenomenon like a vortex, in the fabric of space is set in motion around a Black hole which gives the appearance the the Black hole is spinning. Of course you have your doubts. Well according to mainstream Physics nothing can enter a Black hole and escape. Gone forever. It may seem strange but I don't believe this is the case all the time. If a star enters a Black hole at the right angel and velocity it may drag some of the fabric of space in with it. This fabric would protect the star. The star would disappear and emit no light. Then sometime later re emerg glowing again but somewhat beaten up and much smaller. Essentially the space dragged into the black hole sustained the energy of the star until it escaped. No? Well it just so happens that this has been observed in 2018. Physicists looking for TDE's witnessed this in their data and observations. The curious case of AT2018HYZ cannot be explained. My theory does this. Someone? Anyone? Cheers from downunder.
A legend way to present a new twist of switching mass. Very unique to tell the gap in flat platform in railway announcement. Why gravity became wild to freeze a star in a blackholes is not mear a matter of fate. This universe can show other switching too for cosmic fate reader . Burning cosmic dust as fuel to rotate around won axis .... Namaste 🙏 a fantastic lecture for Digital viewers and lovers
The rotation of a neutron star being so fast, it makes me wonder if the polar regions approach the black hole state before the equatorial region. Could the polar zone act as a partial black hole, with a partial Schwarzchild surface while the rest of the star is still more of a radiating neutron star surface.
I would presume that angular momentum would be a factor. The faster the spin the more mass there can be up to a point. That point could be near the speed of light.
8:45 Synthesizing some Astronomy magazine articles and some other material I've read about neutron stars, the freakiest thing to see happen would be a neutron star extremely close to the TOV limit and spinning extremely rapidly suddenly undergo a starquake but that starquake disturbs the packing and spin of the neutron star just enough that part of it collapses into a black hole and in a tiny, tiny fraction of a second a neutron star you may have been actively monitoring suddenly has a freakout and then just vanishes in a titanic explosion and then... blackness.
I'm so glad you brought in spinning. I was thinking "surely it makes it different... but more or less?" Rotation would alter the forces, but from a guess of less, is that if a neutron isn't considered a solid sphere, then surely there are warped neutrons. The warping "should" be more prone to disintegration, which causes a collapsing chain reaction... which in my thought process, would mean the neutron star could be lighter than expected, and still collapse, because *somewhere* inside it, not necessarily near the gravitational center, there's a transition from bearing gravitational stresses, to being distorted just enough to "destabilize" and "collapse" catastrophically. It would be neat seeing calculations on fluid dynamics of neutron stars, if in fact they could theoretically have convection cells or other pseudo-flows, where the peak velocity is relativistic! I want to believe a collapse could happen off-center, and could even go further, forming a circle or tube of collapsing matter, so you get a "black ring" or even "black shell", where there is a strange pocket of "non-collapsed" material.
Along those lines, she noted the effects of the rapid spinning, with the highest calculated to have the equatorial surface speed at about 1/4 speed of light. Is it just centrifugal force that assists resistance to further collapse? And what about the poles They may make similar revolutions, but the surface speed near the poles should be approaching zero, and therefore the spinning would not prevent black hole collapse. Once the poles - or the solar axis? - start to collapse, what happens with the rest of the neutron star? and what happens with all the angular momentum?
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer. Clockwise is dual to anti-clockwise. Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic. "Always two there are" -- Yoda. Singularities are actually dual:- Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry. Curvature or gravitation is dual. Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality). Positive is dual to negative -- electric charge or numbers, curvature. Potential energy is dual to kinetic energy -- gravitational energy is dual. Energy is dual to mass -- Einstein. Symmetry is dual to conservation -- the duality of Noether's theorem. Duality is a symmetry and it is being conserved according to Noether's theorem.
"Dark [matter] black holes" are predicted to have masses even lower than the TOV (and Chandraskhar!) limits! They can theoretically form in the very early Universe when dark matter self-interacts and cools; it is possible that the gravitational wave event GW190425 had a black hole with a mass in this range! I learned all of this yesterday in a talk by Dr. Sarah Shandera from Penn State :)
You're interesting. I watch because of that, blue eye's and passion you show. :) You make the #'s almost seem relatable.I'm wondering what it would look like to see a neutron star go in a black hole with the density. Stupid question probably.
There is still a purely hypothetical possibility that such objects as quark or even preon stars exist. They could fill the gap. The momentum of particles required to counteract gravity is so large that it comes to be energetically favorable for quarks to become free and then for even bigger star mass it's become true for quarks to decay into preons.
At 11:48 you state that "of course, your pulsar still has to be a neutron star," which is almost always the case, but note that the AR Scorpii binary system consists of a white dwarf pulsar (the first of its' kind) orbiting a cool low-mass star. Of course, if the pulsing component in the J0453+1559 cannot be detected in any EM wavelength, then your statement is (probably) true.
Seems to me, the shock wave from a supernova might be a factor in overcoming neutron resistance to collapsing. If so, I would expect a slightly lower mass range required to get a black hole out of a dying star.
Reminds me of operators of particle accelerators at CERN saying they’d listen real-time to audio of the frequency of the circulating beam, and how if it began to slowly drop in frequency they knew they had an issue with the drive system or magnets.
The complex ... mess of interactions between a large (say, 25 Solar mass, upwards) stellar core, the stars' environment, it's mass-shedding - they all add up to a complex result from an initially "simple" system. Now there's a topic for Her Beckyness to pursue at her next conference (or meeting such researchers at the university coffee shop).
Maybe the energy that can no longer escape within the event horizon is converted to mass? Another silly idea: all that we (outside the EH) can perceive of photons that are trapped within the EH are gravitons? It's amazing to ponder what happens to the mass in a black hole, but what of all the electromagnetic spectrum that gets trapped in there too?
I found ground news to be as misleading as regular news because it did not point out that the Tesla "recalls" are actually automated software updates that happened months ago.
As always, a great explanation laced with enthusiastic scientific curiosity. Can you, or anyone, please explain why a neutron star should have a magnetic field? Aren't neutrons neutral?
The question of how heavy it is is not answerable because that depends upon angular momentum or whether the neutron star precursor is spinning fast or not.
Lots of talk about neutron stars. A good read, for those so inclined, is Robert Forward's book Dragon's Egg. A hard sci-fi novel about *life* on a neutron star! Great video! 👍
Go to ground.news/drbecky to read up on research and the way news interprets it for us. Sign up through my link to get 30% off unlimited access this month.
FYI they list 35% off on their web page.
Nen 10 Ultimate Alien .they flew out side the universe and the stars around were other universes bubble universes
Wonder if giant stars are actually multiple stars that colided. And would that fused star have multiple stars
Dr. Becky,
It's great to see you endorsing new proposals for The People's
Gravity, a.k.a. The Theory of Gravity, Modified Gravity, or the theory-not-
having-to-do-with-a-single-person gravity (a.k.a. MOND), and actively
preparing a new thesis, in support and defense of, Rationality in Rational
Fields (of Science).
The Inverse Square Regime is in dire need of a change, to observe the little
things, usually muddled together by bulk principles. While we overlook your
serious lack of anti-war propaganda, we'll consider your acts-and-deeds on
The People's side of rational discussion, anti-corruption, pro-anti-dark-matter,
pro-socialist-feudal Britain, and encouraging the questioning of the aristocratic
Mathematical black humor of the Newtonian age of occult magnetic principles.
While the Scientific Renaissance burgeoned with the handsome(!) dialectics of
Newton, and ANY of his male counterparts, the only other thing he was interested
in, besides Kepler, Galileo, Leibnitz, Voltaire, and some other fellow, is
his dabbling in Alchemy! Magnetism was assumed to be a proper way to look at
the magnetic orbits of the planets. (see satirical 18th century zodiac columns)
The People's Gravity (gravity-theory) Theoriticians would like to interject a
few suggestions about where to head with our future research.
Suggestion the first: A general revamping of any functional theory
(i.e. a force-law theory) with an equivalent theory based on particle counting.
This should give a very rudamentary form of the equations based on flux-density,
and cross-section.
Suggestion the second: Consider non-linear effects of particle counting to
help account for the utter failure of force-law. The simplest of such examples
is how a linear force would absorb / emit as 1-to-1, while a non-linear force
would absorb / emit as 1-to-many.
Finally, supposing the law of the free market, (pardoning my anti-war activist
friends), don't ever suppose things don't exist if there's a way to profit, from,
those, things. Black holes exist because LIGO created them, with the help, and
passive collusion of, those rascal predecessors: Galileo, Newton, Einstein, and
Hawking. Newton's recklessness may as well have caused the creation of the nuclear
bomb, when every other person fails to ACT - in order to stop a varitable genocide!
We Need Your Help! The People Win Out! The Trump Era Must Fail!
Warm Regards,
The People
I think kepler 22b is the lightest Black body' every found
As an ex- astrophysicist, I love your videos, I feel like I'm getting a little taste of my old astro Journal Club (where we all sat around and talked about papers at lunch).
What's different now is we have to work the pause button a lot to read the abstracts, while journal clubs don't have pause buttons and don't need them.
Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic.
"Always two there are" -- Yoda.
Singularities are actually dual:-
Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry.
Curvature or gravitation is dual.
Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality).
Positive is dual to negative -- electric charge or numbers.
Potential energy is dual to kinetic energy -- gravitational energy is dual.
Energy is dual to mass -- Einstein.
singularity indirectly means offline/out of unverse...which black holes doen fit that definition... but may be valid until they reaches singularity... ie the part f matter outside blackhole thats under process of bein part f singularity may b te thi thats what we see on blak holes.. but after matter reaches singularity i think mathemathicall as they are offline... they are no part of black hole anymore... we can thing black holes as a atr to singularity of teory is true... i mean logcally offline means offline.. they do not obey rules.. tht meas they cant be part f symphony of te big chaos called universe anymore :D
That sounds fun.
That sounds like a lovely way to spend an afternoon. I think I would want Tea and a biscuit.
Absolutely loved the issue with showing us 10 to -13 at the blooper end of the video. As an Engineer who occasionally has been known to get the decimal place in the wrong slot.. I grew up in era of slide rules afterall... it was just fun to see Dr Becky figuring it out... Thanks for the laugh. I think all the more of you for showing us that.
floating point arithmetic, slide rule, abacus; same same only different.
as an A level physics student, ive given up trying to count the noughts and i just know which prefix is which now 😅
One of the tricky things with discussing neutron stars and black holes is that there are two different masses that get brought up: the mass of the progenitor star and the mass of the remnant itself. Due to the supernova, the remnant's mass will be less than that of the star. So a remnant of 5 solar masses may be a black hole, but a star with 5 solar masses will become a neutron star.
Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic.
"Always two there are" -- Yoda.
Singularities are actually dual:-
Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry.
Curvature or gravitation is dual.
Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality).
Positive is dual to negative -- electric charge or numbers.
Potential energy is dual to kinetic energy -- gravitational energy is dual.
Energy is dual to mass -- Einstein.
I was thinking this moment (on second listen-through of Her Beckyness), about the levels of mass loss in high-mass stars. Very much your point too. Not really Her Beckyness's territory, but very much related.
Which sounds better : "Her Beckyness", or "Quine Smethy"?
Always a treat when Dr. Becky gets nought-y.
I think you have fingered the pulsar of the issue.
That's Gr0ss dude
Hot off the press: Uranus is a black hole.
just so real when even a seasoned professor of astrophysics has to take a moment to confirm how many zeros after the decimal and whether it includes the zero in the ones place xD
Love the "Mind the Gap" London Tube reference at the start of the video. Brought back nice memories when I visited London and rode the tube back in January 2016. Facinating video once again Dr. Becky. I always look forward to your next video release.
The pop up showing Dr. Becky cares about the difference between an acronym and an initialism was the second most exciting thing I've read this week, and made me very happy.
Had to rewatch to see the popup you mentioned, but totally agreed! We're a nation obsessed with acronyms to the point that we name everything with the end goal of a nice acronym in mind 😂 US here 🇺🇸
That is an incredibly tight, frustrating difference between the required accuracy and the variation. Unusual for astronomy numbers to be the same order of magnitude like that!
15:53 We've found the astronomy version of "you're gonna need a bigger boat!" 😂
Just listen to Sabine Hossenfelder & you'll get to hear the exact opposite, time & time again.
Except it makes sense for larger astronomical event detection devices, as space is large. But it's a massive expenditure to study the very small - Super CERNS.
@@justincronkright5025 False equivalence. It's not a particle accelerator. We know that the resolution and sensitivity increase with size that there are things to be seen there. It's far less speculative.
@@Sonny_McMacsson Well duh, something isn't something completely different.
The point is that there is a universe of stuff out there that can be explored and information garnered about the universe. Whereas the capacity to do testing of particle physics on this specific planet of Earth is either 1) finite or at least 2) made more expensive & perhaps even more fallible by the conditions they are done in.
@@justincronkright5025Sabin may be right when it comes to particle accelerators, but it's a different story when it comes to astronomy, and even space in general, because we definitely get a return on our investment because all space missions have very specific goals and they usually not only achieve them, but exceed them. Also, there's no other way to get data we need other than those missions. JWST is a great example. It cost a lot of money, but I don't think any scientist would claim it was a waste of money. Mars rovers are another example because they're the only way we can explore and eventually visit other planets. Space missions don't shoot in the dark hoping to find something interesting, unlike particle accelerators
Is it possible that there is an overlap where you have the most massive neutron star being more massive than the least massive black hole?
"Conflated" What a fabulous word. We don't hear that one enough. Thanks Dr S.
It's one I use ... monthly if not weekly. But never weakly.
It is an important half-way house between "you're wrong" and "you're not right", both of which include "we're both honest, but disagree".
In other words, politically unacceptable.
Have you done an in depth review of Oppenheimer yet? Would love your thoughts on the film's take on history.....Be well!
I second this. 🎞️🍿
Agreed.
Yes please :)
I third this!
I fourth fifth sixth this!
It was great working with you as always Dr. Becky! Another fantastic analysis. To those of you interested staying fully informed and getting the latest updates for Space/Science research, check out the link in the description and let us know if you have any questions.
Her Beckyness is a very powerful advert for your service. I'm not in a paying position at this time, but she has moved you into the "I would if I could" category.
Do you need sci-tech analysts - specifically geologists?
“We’re gonna need a bigger radio telescope.” Martin Brody
Almost in passing, you gave the most accessibly communicated explanation for star death and neutron star formation, ever. Most people will be able to understand it, even if they don't know why. Truly demonstrating what an excellent science communicator you are. Bravo!
It was absolutely terrible and communicated only misinformation. There's no "glowing helium core" after a supernova, instead helium is blown away by the explosion
Thank you Dr. Becky for all of your insights and information!
The comparison chart at 5:30 is just....*chef's kiss* I love the video, but that just tells you everything you need to know about both remnant stars, but also our inimitable physics explainer.
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer.
Clockwise is dual to anti-clockwise.
Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic.
"Always two there are" -- Yoda.
Singularities are actually dual:-
Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry.
Curvature or gravitation is dual.
Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality).
Positive is dual to negative -- electric charge or numbers, curvature.
Potential energy is dual to kinetic energy -- gravitational energy is dual.
Energy is dual to mass -- Einstein.
Symmetry is dual to conservation -- the duality of Noether's theorem.
Duality is a symmetry and it is being conserved according to Noether's theorem.
I loved this video, but I have a clarification to note:
I just wanna point out that when Becky says that a massive star goes supernova once it runs out of hydrogen to fuse, that's not quite correct. Massive stars that turn into black holes or neutron stars actually keep fusing heavier and heavier elements until they build up enough iron - the first element they can't fuse - for their core to implode, causing a supernova.
It's not they can't fuse iron, it's just that the fusion of iron absorbs energy rather than generating energy and so there is no outward pressure from the reaction balancing in the inward gravitational pressure. This is what induces a collapse which starts the supernova process.
I'm an electrical engineer working on developing a commercial optical atomic clock (5e-14@1sec), and it's cool to see an example in astronomy that requires really good clocks.
A fascinating find, and I think it's exciting no matter which one it turns out to be, as long as it narrows the gap. Though a tiny black hole at that size would be a much bigger bite out of the difference. The transition to the ad has a fatal flaw... I can tell that it's a real science story because Dr. Becky and/or Scott Manley cover it in their news segments. And then Dr. B goes and says "giant radio telescope" and makes me sad that Arecibo is gone.
I remember alot of talk about "Quark Stars" that could exist in that mass gap. Did the authors mention anything about that?
I wondered the same. Quark star? Strange star? Some physicists seem to think that quark and/or strange matter may even exist at the cores of some normal mass range neutron stars.
As much as I understand, the object crosses the Schwartzshild radius and becomes a black hole, before its content becomes a quark star. So who knows if inside a black hole, censored by an event horizon, resides a quark star...
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer.
Clockwise is dual to anti-clockwise.
Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic.
"Always two there are" -- Yoda.
Singularities are actually dual:-
Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry.
Curvature or gravitation is dual.
Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality).
Positive is dual to negative -- electric charge or numbers, curvature.
Potential energy is dual to kinetic energy -- gravitational energy is dual.
Energy is dual to mass -- Einstein.
Symmetry is dual to conservation -- the duality of Noether's theorem.
Duality is a symmetry and it is being conserved according to Noether's theorem.
@@davidtatro7457AIUI, they're related. Whether they're "stable" ... open question. Whether they can be (remotely, i.e. by us) distinguished one from the other - between hard and very-hard.
If you want funding, you need to talk about *testable* differences. There you get funded PhD projects ; elsewhere, you're searching for funding.
@@nirorbach8046 Yep. The "difference without a distinction". What happens inside an event horizon, stays inside the event horizon.
This is awesome! so glad someone finally mentioned the low mass gap of BH’s lol. this is currently my research and honestly, it gets overshadowed by the other mass gaps
heavy neutron star more interesting because it can give clues about the balance between degeneracy pressure and conversion of up and down quarks to strange or other quarks.
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer.
Clockwise is dual to anti-clockwise.
Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic.
"Always two there are" -- Yoda.
Singularities are actually dual:-
Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry.
Curvature or gravitation is dual.
Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality).
Positive is dual to negative -- electric charge or numbers, curvature.
Potential energy is dual to kinetic energy -- gravitational energy is dual.
Energy is dual to mass -- Einstein.
Symmetry is dual to conservation -- the duality of Noether's theorem.
Duality is a symmetry and it is being conserved according to Noether's theorem.
That we can even detect objects this small at such a vast distance... Consider the radii involved are in the 10-20ish KM range against a distance of 40K Light years (more than 10^16 KM). So that "little bit of extra resolution" is going to be a challenge.
Wonderful presentation.
It should be stated that when Dr. Becky says the biggest a neutron star and smallest black hole can only be 2+ times the mass of the sun. She means how big the dead stellar core can be before it collapses into a neutron star/black hole. Not the mass of the original star that core collapsed into the neutron star/black hole.
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer.
Clockwise is dual to anti-clockwise.
Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic.
"Always two there are" -- Yoda.
Singularities are actually dual:-
Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry.
Curvature or gravitation is dual.
Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality).
Positive is dual to negative -- electric charge or numbers, curvature.
Potential energy is dual to kinetic energy -- gravitational energy is dual.
Energy is dual to mass -- Einstein.
Symmetry is dual to conservation -- the duality of Noether's theorem.
Duality is a symmetry and it is being conserved according to Noether's theorem.
The "mind the gap" joke made me chuckle, but then lol with tears when it came through to the diagram 🤣 you're the best, Becky!
I am appreciative of those who included a researcher's portrait on the report paper with their name. It's a good idea to become familiar with their names and faces. It ought to be present everywhere!
Very illuminating! Jeutron stars can teeter on the edge of black holedum but there is no way to achieve the opposite effect!
Too little attention is paid to gravity wave interaction with neutron stars.
Given NO gravitational wave assistance, the minimal mass of black holes are ~3 solar masses.
Some should keep in mind that lower mass neutron stars that experience gravitational waves from whatever cause effectively "push" a large neutron star to fall into black hole status.
Hope to read more about transindient neutron stars.
That animated illustration at 9:00 is fantastic! I want that on a coffee mug and a t-shirt, animated of course!
Why would the amount of spinningness be different if it is a black hole vs if it is a neutron star (assuming it is the result of a merger)?
Is it because if it were a merger of two neutron stars combining to make a neutron star, that some stuff would have been ejected outwards, carrying away some angular momentum? Or, is it some other reason?
My biggest issue is ... we don't have a minimum mass for a BH.
We have a minimum mass for forming a BH from a collapsed star (which is also a maximal mass for a NS). But that *only* covers forming X by collapse of a star-sixe object.
Hypothesis : a NS (isolated, little visible radiation signature) and a cold, old Brown Dwarf impact at low "beta" (impact factor) creating a BH-density small region which collapses ... and is separated in very-short time from either source of loosely-bound mass. Result : a BH of arbitrarily low mass (and arbitrarily high angular momentum) without any obscure physics.
"Blue straggler" stars in globular clusters suggest that such improbable collisions DO happen.
(No, I'm not disputing the physics of stellar collapse - just arguing that they're not the *only* formation mechanism.)
This is a great demonstration of the "better approximation to reality" model of what science is.
If your new data (on whatever) provides a better approximation to our previous measurements, your model is (probably) better. It worked for Kepler (Copernicus didn't push his mathematical ideas ; Kepler made them unavoidable.). Then Faraday. And Einstein. And ... the next ...
I love this. "We found this thing that would perfectly answer our question if we could just figure out what it actually is." =)
I really love your videos... They are so well done! I get giddy when i see you've posted your next videos! I love space and physics, so i totally nerd out when you enlighten us! Thanks again! See ya next time!
So much fun! I wasn't interested in the title so much as clicking on Dr Becky to waste some time before bed. Now I know a bit about it in an enjoyable way.
A couple of questions if you don't mind:
(1) If a single neutron star spinning fast enough to avoid collapse eventually spun down to the point it did collapse, would the gravitational signature be visible? (If so, what would it look like?)
(2) If a star was formed purely from quarks (if that was possible, somewhere between a neutron star and a black hole), would its escape velocity exceed c?
Interesting stuff as always!
If the spinning slows down, then the energy density also goes down, therefore it wouldn't collapse.
It's probably not possible to have an all-quark star because the high degeneracy pressures alone would have enough energy to cause a collapse into a black hole.
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer.
Clockwise is dual to anti-clockwise.
Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic.
"Always two there are" -- Yoda.
Singularities are actually dual:-
Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry.
Curvature or gravitation is dual.
Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality).
Positive is dual to negative -- electric charge or numbers, curvature.
Potential energy is dual to kinetic energy -- gravitational energy is dual.
Energy is dual to mass -- Einstein.
Symmetry is dual to conservation -- the duality of Noether's theorem.
Duality is a symmetry and it is being conserved according to Noether's theorem.
Question: a Type 1A supernova occurs when matter accretes to a white dwarf until it goes bang. I imagine, there are many examples where matter accretes to a neutron star. When the neutron star gains enough mass (as discussed in your excellent video) and it transitions to a black hole, does it just "switch off" and go dark????
Not quite but essentially yes. Lacking a source of fusion energy the collapse would be quite 'quiet' and hard to detect.The same is true for stars collapsing directly into black holes.
As Douglas Adams explained, it is a gnab gib.
Not very exciting. Boring really.
I would assume that a neutron star has trouble "feeding" just like a black hole has, because the gravitational pull gets so violent close to it that stuff gets accelerated to close the speed of light, which causes an enormous amount of friction, to the point that the accretion disc even gives off x-ray light, which causes outward pressure against the gravity. So if the neutron star suddenly collapses into a black hole, the accretion disc would probably light up pretty spectacularly.
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer.
Clockwise is dual to anti-clockwise.
Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic.
"Always two there are" -- Yoda.
Singularities are actually dual:-
Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry.
Curvature or gravitation is dual.
Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality).
Positive is dual to negative -- electric charge or numbers, curvature.
Potential energy is dual to kinetic energy -- gravitational energy is dual.
Energy is dual to mass -- Einstein.
Symmetry is dual to conservation -- the duality of Noether's theorem.
Duality is a symmetry and it is being conserved according to Noether's theorem.
rather than looking for the bang of the transition, we can look for the after-effects of it. For example, we can look for a luminous companion of the black hole created due to the accretion-induced collapse; a few papers have already done this.
The thing that really strikes me about all of this is the rather small mass range for neutron stars and therefore quasars. It had never occured to me before, but now thinking about it... it means that when we observe neutron stars, we are witnessing the remnants of a system rather similar, in size at least, to our own.
Sorry - I've never heard of a model for powering a QUASAR relying on a Neutron Star. All I know of REQUIRE a big (million*sun-mass, upwards) black hole.
@@a.karley4672 sorry, i meant pulsar!
What's happening around a black hole that we can't explain is likely also the key to making something invisible. It's interesting how stable a black hole is
Love that graph with "Mind the Gap" in the middle!
Why would “the angle of the orbit with respect to us” make a difference in the masses of the neutron star and its companion?. Saludos.
Thanks for keeping me updated Dr. Becky. There should be some way to tell if object is a neutron star. Something tells me it's not a BH. Daniel B USA
Thank you very much for explaining and thank you to all the scientist who are unraveling the mysteries of the universe and physics. It is of utmost importance.
Thank you for presenting dense material in an informative yet digestible way. Cheers!
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer.
Clockwise is dual to anti-clockwise.
Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic.
"Always two there are" -- Yoda.
Singularities are actually dual:-
Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry.
Curvature or gravitation is dual.
Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality).
Positive is dual to negative -- electric charge or numbers, curvature.
Potential energy is dual to kinetic energy -- gravitational energy is dual.
Energy is dual to mass -- Einstein.
Symmetry is dual to conservation -- the duality of Noether's theorem.
Duality is a symmetry and it is being conserved according to Noether's theorem.
It has to be hell looking for black holes. The smaller they are the more aggravating. I really enjoy your channel Becky thanks for posting.
I also call it the "Tov limit"
You're not the only one!
It would be interesting if there was some overlap, a neutron star slightly bigger than a blackhole, requiring a kick by an external event to start the collapse
In my ignorance, I was thinking that being in globular cluster would mean there would be "frequent" perturbations of the orbit as other stars pass "close by" (say 1,000 AU)...
But IIUC, the stars in a cluster will be moving between 5 & 30 AU per year, so not exactly swooping by, and moving well under 0.1% of mean separation (1ly ≈ 63k AUh) per year.
And with J0514-4002E being only 8M km (0.05 AU) from its partner, I expect the effect of stars even 100 AU away would be insignificant.
The mass gap is really intriguing. I wonder if we make a fundamental mistake when calculating the mass of either neutron stars or black holes, allowing for the gap to exist. Since neutron stars do collapse into black holes by accumulating mass, there should not exist a gap.
Hearing both the fact that all stars lose mass during their lifetime, and the fact that we measure the weight of objects in the universe in terms of "solar masses", it makes me suddenly think (even though I am used to dealing with this weight unit): shouldn't the "solar mass" unit come along with a reference in time? Indeed, 10 solar masses now is not the same amount in kg as 10 solar masses in 10 years. So we have a unit system which is evolving every second! While a kilogram is a kilogram is a kilogram and its template is well known and does not vary over time.
Our sun loses about 4.2 billion kg per second, emitting enery as light, solar bursts, etc. This is a huge amount of matter lost every second, even if it represents a very small amount compared to the overall sun, and to other stellar objects in the universe that may be 10 times more massive (betelgeuse 16.5 times).
Still, to be perfectly accurate, shouldn't the unit be "anchored" to a reference in the timeline of the universe? When we say something weighs 6.32 solar masses, during how many years will this statement remain true until we must correct it to 6.33? I know the math could be done easily, but it's just to point out the problem. Althoug is not that trivial: the measured object may also change in mass in the meantime, so depending on if it is at a rate lower or higher than that of our sun, adjusting the statement to make it true again may be done by increasing or decreasing the number.
It is strange to have such moving references, and nodoby seems to care for the inaccuracy even if very very small. Perhaps it is assumed that the mankind period in the universe will be so short that it can be seen as a single fixed point in the universe timeline, so that when we speak in terms of solar masses, the error due to time passing is sufficiently neglectable.
6:27 ❤ for mentioning the difference between acronyms and initialisms.
(E.g., NASA _vs_ FBI, or QUANGO _vs_ NHS)
This was super interesting and enjoyable. Great talk that demanded a comment - thank you for expanding my horizons.
Loved the book and fascinated by black holes.
Can you explain why when a neutron star gets big enough to collapse into a black hole it has to firm a singularity? Isn't it possible that there is another phase of mass with a degeneracy pressure to stop the collapse to the singularity.
Early on in the video, I almost thought you were going to say "how we can turn it (the neutron star) into a Black Hole"! Certainly would reinforce your fascination with Black Holes. Counting on your fingers, especially with the tasteful nail varnish as focal points was really helpful - negative power numbers always lose me.
Another really great video.
I feel so much better knowing that Dr Becky has the same fence-post problem with scientific notation that I do.
As soon as Dr Becky mentioned neutron stars retaining the spin of their pre-nova selves, I thought of the figure skater analogy. But I also wonder now just how much spin is going on inside a black hole?!
Space is hard, counting is harder! Love it, cant wait to see what further study of this system uncovers
This 'Black hole orrery visualization' is very satisfying to watch. I could watch the 10-hour version 😄
@13.43 the image displays the Virgo detector in Pisa (Italy), not what the caption reads (LIGO Livingstone, LA, USA).
Besides this tiny detail, a great video. Thanks.
Imagine how different physics discourse would be if ice skating had never been invented.
They'd have to use a kid twisting a swing which requires a much longer explanation 😂
I guess the team thought about this, But i'm curious, but could it be a very dim white dwarf too? the more massive WD know is like 1.3 Msun. Althought their normal range is more lik 0.8.
WD are ussually bigger in size than a neutron start, but their light is dim, VS the radio Beam coming out of a pulsar. that would be massive enough to have a effect on the pulsar.
I love when the videos are right in your field of expertise, Hurray for black holes!
Hi @DrBecky, this may be a silly question, but I was wondering if it makes sense to ask about why the up and down quarks that makeup neutrons do not resist the force of gravity after the point at which the neutrons break down under high gravity? Or is this part of the mystery and importance of why we need a theory of quantum gravity - because Quarks follow the laws of QM and not GR? You see my thought process extrapolating from stars collapsing down into neutron stars (big ball of neutrons) and wondering about whether a black hole might be a ball of fundamental particles in a smaller volume. Another thought is about how the fundamental particles like quarks etc have no measurable size and are treated as 'point-like' in mathematics - so to a regular guy like me it conceptually doesn't seem strange for a large amount of fundamental matter under high gravity to be occupying what looks like the same place - a point in space with so much concentrated energy that gravity reduces space to 0 dimensions. I know that I have got here through a lot of misunderstanding!
I know that is probably nonsense, but I am just a science and space fan trying to understand the universe. Love your book and channel!
BONUS QUESTION: What can someone who hasn't done maths since secondary school start learning to get a better understanding of physics in cosmology? Any recommendations?
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer.
Clockwise is dual to anti-clockwise.
Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic.
"Always two there are" -- Yoda.
Singularities are actually dual:-
Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry.
Curvature or gravitation is dual.
Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality).
Positive is dual to negative -- electric charge or numbers, curvature.
Potential energy is dual to kinetic energy -- gravitational energy is dual.
Energy is dual to mass -- Einstein.
Symmetry is dual to conservation -- the duality of Noether's theorem.
Duality is a symmetry and it is being conserved according to Noether's theorem.
The big bang is an infinite negative curvature singularity -- non null homotopic (duality).
Dark energy is repulsive gravity, negative gravity, negative pressure or hyperbolic space, negative curvature (inflation)!
The definition of Gaussian negative curvature is defined using two dual points or singularities:-
en.wikipedia.org/wiki/Gaussian_curvature
The big bang is an infinite white hole (an explosion, expansion, divergent).
hey becky i found your channel via a youtube short and have been binge your content. i been learning so much. so thank you. i stuck in bed alot so its been great to work my brain
Awesome, Dr. Becky's favourite subject, awesome information, as always 😀 So "Q": is there no light due to it being a black hole with to no accretion disc, or can a neutron star cause a gravitational fluctuation with causing an accretion disc? Isn't this getting into boundary levels between the two?
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer.
Clockwise is dual to anti-clockwise.
Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic.
"Always two there are" -- Yoda.
Singularities are actually dual:-
Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry.
Curvature or gravitation is dual.
Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality).
Positive is dual to negative -- electric charge or numbers, curvature.
Potential energy is dual to kinetic energy -- gravitational energy is dual.
Energy is dual to mass -- Einstein.
Symmetry is dual to conservation -- the duality of Noether's theorem.
Duality is a symmetry and it is being conserved according to Noether's theorem.
Seeing a super nova explosion is noticeable. Seeing something disappear is much harder. There has only been a few occasions where we notice that something is no longer visable.
Very interesting video Dr. Becky! I would have just said "Naught 13" and left it at that! 😂😂
I think the most exciting possibility is that there could be a transition stage that's neither a black hole or a neutron star. Something like a quark matter object or a boson star.
You do this so well, Dr Becky!
It would be super cool to have a neutron star right at the limit of becoming a black hole because of its spin, eventually slow down just enough to no longer be able to prevent its collapse and the pulsar blinks out. And would it just go out (stop pulsing) or would there be some kind of explosive event?
That, my friend, is called a blitzar.
I just bought your new book Dr Becky! Can't wait to read it. Love your youtube videos. Respects from USA
Becky you such a fun to explore the hard stuff...... 😊😊
I think the lightest black hole would be more exciting. It would close that mass gap a lot more, giving us more certainty about the limits of neutron degeneracy pressure. I like it when we learn hard facts, and if this object is a black hole rather than a neutron star, that's harder facts.
Um, the physical reality of the object is less important than whether it identifies as a Neutron Star or a Black Hole.
I just don't think we should be assuming the classification of stellar remnants.
😂😂😂
I really love these videos DB. We're getting closer and closer to understanding Black hole creation. The latest reseach is cool. But I still don't buy into the conventional theory of Black hole Physics. I believe that Black holes are a tare in the fabric of space and not super dense objects. Laugh and then read on! To picture it in a simplified model it's like this. Imagine space as a piece of cloth streched out. On this cloth representing stars are marbles varying in size and mass. When a marble becomes dense enough and spins fast enough ( Neutron Star ) it tears through the fabric. Space can no longer support it and it is anylated. The remaining cap is a Black hole. The law of conservation makes space keep a memory of this event. A Black hole. It is space itself ( the fabric ) which creates the intense gravity around it. I believe that a phenomenon like a vortex, in the fabric of space is set in motion around a Black hole which gives the appearance the the Black hole is spinning. Of course you have your doubts. Well according to mainstream Physics nothing can enter a Black hole and escape. Gone forever. It may seem strange but I don't believe this is the case all the time. If a star enters a Black hole at the right angel and velocity it may drag some of the fabric of space in with it. This fabric would protect the star. The star would disappear and emit no light. Then sometime later re emerg glowing again but somewhat beaten up and much smaller. Essentially the space dragged into the black hole sustained the energy of the star until it escaped. No? Well it just so happens that this has been observed in 2018. Physicists looking for TDE's witnessed this in their data and observations. The curious case of AT2018HYZ cannot be explained. My theory does this. Someone? Anyone? Cheers from downunder.
A legend way to present a new twist of switching mass. Very unique to tell the gap in flat platform in railway announcement. Why gravity became wild to freeze a star in a blackholes is not mear a matter of fate. This universe can show other switching too for cosmic fate reader .
Burning cosmic dust as fuel to rotate around won axis ....
Namaste 🙏 a fantastic lecture for Digital viewers and lovers
The rotation of a neutron star being so fast, it makes me wonder if the polar regions approach the black hole state before the equatorial region. Could the polar zone act as a partial black hole, with a partial Schwarzchild surface while the rest of the star is still more of a radiating neutron star surface.
I would presume that angular momentum would be a factor. The faster the spin the more mass there can be up to a point. That point could be near the speed of light.
I love the comparison of the evolution of Pichu > Pikachu > Raichu to the "evolution" of white dwarf > neutron star > black hole!
8:45 Synthesizing some Astronomy magazine articles and some other material I've read about neutron stars, the freakiest thing to see happen would be a neutron star extremely close to the TOV limit and spinning extremely rapidly suddenly undergo a starquake but that starquake disturbs the packing and spin of the neutron star just enough that part of it collapses into a black hole and in a tiny, tiny fraction of a second a neutron star you may have been actively monitoring suddenly has a freakout and then just vanishes in a titanic explosion and then... blackness.
I'm so glad you brought in spinning. I was thinking "surely it makes it different... but more or less?" Rotation would alter the forces, but from a guess of less, is that if a neutron isn't considered a solid sphere, then surely there are warped neutrons. The warping "should" be more prone to disintegration, which causes a collapsing chain reaction... which in my thought process, would mean the neutron star could be lighter than expected, and still collapse, because *somewhere* inside it, not necessarily near the gravitational center, there's a transition from bearing gravitational stresses, to being distorted just enough to "destabilize" and "collapse" catastrophically. It would be neat seeing calculations on fluid dynamics of neutron stars, if in fact they could theoretically have convection cells or other pseudo-flows, where the peak velocity is relativistic! I want to believe a collapse could happen off-center, and could even go further, forming a circle or tube of collapsing matter, so you get a "black ring" or even "black shell", where there is a strange pocket of "non-collapsed" material.
Along those lines, she noted the effects of the rapid spinning, with the highest calculated to have the equatorial surface speed at about 1/4 speed of light. Is it just centrifugal force that assists resistance to further collapse? And what about the poles They may make similar revolutions, but the surface speed near the poles should be approaching zero, and therefore the spinning would not prevent black hole collapse. Once the poles - or the solar axis? - start to collapse, what happens with the rest of the neutron star? and what happens with all the angular momentum?
Angular momentum (symmetry) is always conserved -- the spinning ballet dancer.
Clockwise is dual to anti-clockwise.
Neutron stars (thesis) are dual to black holes (anti-thesis) create the Mass Gap (synthesis) -- The time independent Hegelian dialectic.
"Always two there are" -- Yoda.
Singularities are actually dual:-
Positive curvature singularities (Black holes) are dual to negative curvature singularities (white holes, the big bang) -- Gauss or Riemann geometry.
Curvature or gravitation is dual.
Gravitation is equivalent or dual (isomorphic) to acceleration -- Einstein's happiest thought, the principle of equivalence (duality).
Positive is dual to negative -- electric charge or numbers, curvature.
Potential energy is dual to kinetic energy -- gravitational energy is dual.
Energy is dual to mass -- Einstein.
Symmetry is dual to conservation -- the duality of Noether's theorem.
Duality is a symmetry and it is being conserved according to Noether's theorem.
"Dark [matter] black holes" are predicted to have masses even lower than the TOV (and Chandraskhar!) limits! They can theoretically form in the very early Universe when dark matter self-interacts and cools; it is possible that the gravitational wave event GW190425 had a black hole with a mass in this range!
I learned all of this yesterday in a talk by Dr. Sarah Shandera from Penn State :)
Bloody excellent work. Thanks Dr Becky.
Could the remnant of Betelgeuse be close to the TOV limit on either side? Either as a large neutron start or small black hole?
You're interesting. I watch because of that, blue eye's and passion you show. :) You make the #'s almost seem relatable.I'm wondering what it would look like to see a neutron star go in a black hole with the density. Stupid question probably.
There is still a purely hypothetical possibility that such objects as quark or even preon stars exist. They could fill the gap. The momentum of particles required to counteract gravity is so large that it comes to be energetically favorable for quarks to become free and then for even bigger star mass it's become true for quarks to decay into preons.
At 11:48 you state that "of course, your pulsar still has to be a neutron star," which is almost always the case, but note that the AR Scorpii binary system consists of a white dwarf pulsar (the first of its' kind) orbiting a cool low-mass star. Of course, if the pulsing component in the J0453+1559 cannot be detected in any EM wavelength, then your statement is (probably) true.
Brilliant, and the "Nough' nough' nough' nough' nough' nough' " is so charming!
Is … NOT !
(But i measure airspeed in knots.)
@@baomao7243Do you rotate at V1?
I don't think "lightest black hole" is going to win any awards....but "heaviest neutron star" has a fighting chance at a consolation prize!
Seems to me, the shock wave from a supernova might be a factor in overcoming neutron resistance to collapsing. If so, I would expect a slightly lower mass range required to get a black hole out of a dying star.
I like the slow motion "chat about".
716 Hz is a slightly sharp F an octave above middle C.
Reminds me of operators of particle accelerators at CERN saying they’d listen real-time to audio of the frequency of the circulating beam, and how if it began to slowly drop in frequency they knew they had an issue with the drive system or magnets.
maybe it is a 720Hz generator under heavy load 😂
What about primordial black holes? Are they not tiny (depending on circumstances)?
The complex ... mess of interactions between a large (say, 25 Solar mass, upwards) stellar core, the stars' environment, it's mass-shedding - they all add up to a complex result from an initially "simple" system.
Now there's a topic for Her Beckyness to pursue at her next conference (or meeting such researchers at the university coffee shop).
“Gravity is by far the weakest of the 4 fundamental forces in the universe”
Neutron Star grins “here hold my beer”.
Maybe the energy that can no longer escape within the event horizon is converted to mass? Another silly idea: all that we (outside the EH) can perceive of photons that are trapped within the EH are gravitons? It's amazing to ponder what happens to the mass in a black hole, but what of all the electromagnetic spectrum that gets trapped in there too?
I found ground news to be as misleading as regular news because it did not point out that the Tesla "recalls" are actually automated software updates that happened months ago.
As always, a great explanation laced with enthusiastic scientific curiosity. Can you, or anyone, please explain why a neutron star should have a magnetic field? Aren't neutrons neutral?
The question of how heavy it is is not answerable because that depends upon angular momentum or whether the neutron star precursor is spinning fast or not.
When pressure is the dominant force against gravity you get spheres.
When rotational movement is the dominant force against gravity you get discs.
Lots of talk about neutron stars. A good read, for those so inclined, is Robert Forward's book Dragon's Egg. A hard sci-fi novel about *life* on a neutron star! Great video! 👍